Whole-genome DNA methylomes of tree shrew brains reveal conserved and divergent roles of DNA methylation on sex chromosome regulation

Abstract Background The tree shrew ( Tupaia belangeri ) is a promising emerging model organism in biomedical studies, notably due to their evolutionary proximity to primates. To enhance our understanding of how DNA methylation is implicated in regulation of gene expression and the X chromosome inactivation (XCI) in tree shrew brains, here we present their first genome-wide, single-base-resolution methylomes integrated with transcriptomes from prefrontal cortices. Results Genome-wide relationships between DNA methylation and gene expression are consistent with those in other mammals. Interestingly, we observed a clear and significant global reduction (hypomethylation) of DNA methylation across the entire female X chromosome compared to male X. Female hypomethylation does not directly contribute to the gene silencing of the inactivated X chromosome nor does it significantly drive sex-specific gene expression in tree shrews. However, we identified a putative regulatory region in the 5′ end of the X-inactive-specific transcript ( Xist) gene, whose pattern of differential DNA methylation strongly relate to its sex-differential expression in tree shrews. Furthermore, differential methylation of this region is conserved across different species. We also provide evidence suggesting that the observed difference between human and tree shrew X-linked promoter methylation is associated with the difference in genomic CpG contents. Conclusions Our study offers novel information on genomic DNA methylation of tree shrews as well as insights into the evolution of sex chromosome regulation in mammals. Specifically, we show conserved role of DNA methylation in regulation of Xist expression and propose genomic CpG contents as a factor in driving sex-differential DNA methylation of X-linked promoters.